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INFORMATION BROCHURE Master of Technology (Thermal Engineering) (An Accredited Post Graduate Programme by National Board of Accreditation, India) National Institute of Technology Raipur Address: Department of Mechanical Engineering National Institute of Technology Raipur G.E. Road, Raipur, Chhattisgarh 492010, INDIA. 0 | Page

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INFORMATION BROCHURE

Master of Technology (Thermal Engineering)(An Accredited Post Graduate Programme by National Board of Accreditation, India)

National Institute of Technology Raipur

Address:

Department of Mechanical Engineering

National Institute of Technology Raipur

G.E. Road, Raipur, Chhattisgarh 492010, INDIA.

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Website: nitrr.ac.in

ABOUT THE INSTITUTION

In view of the fact of a young nation and also with an aim of harnessing the ample

mineral resources of the region, this institute, presently recognized as NIT Raipur, was

set-up on 1st May 1956 as Government College of Mining and Metallurgy. The first

President of independent India honourable Dr. Rajendra Prasad laid the Foundation stone

of the college building on 14th September 1956.

The construction work was completed in 1962 and on 14th March 1963, India's first

Prime Minister Pt. Jawaharlal Nehru performed the inauguration. The first session of the

college commenced from 1st July 1956 with the admission of 15 students each in Mining

and Metallurgy Engineering. In 1958-59 with the commencement of additional courses in

Civil, Mechanical and Electrical Engineering the college came to be known as

Government College of Engineering and Technology. Later graduate courses in

Chemical Engineering (1965), Architecture (1984), Electronics (1985), Information

Technology, Computer Science and Technology (2000), Biotechnology, Biomedical

Engineering (2003) were also started. In view of its great past with 50 years old record of

excellence and several strengths, the institute has been declared as National Institute of

Technology (NIT) by the Central Government on 1st Dec. 2005.

National Institute of Technology, Raipur (NITRR), hence formed in the year 2006,

is an Institute of national importance and presently runs academic courses in 12

disciplines in the form of graduate and post graduate courses. The institute also inducts

regular and part-time scholars for PhD courses. In addition to these, the institute intends

to provide continuing education in a very broad spectrum keeping in view the needs of

industries, academic institutions, research organizations and, last but not the least, the

society. The institute is committed to the challenging task of development of technical

education by preparing seasoned graduates in highly sophisticated field of engineering

and technology. Development of India as an emerging industrial power is a demanding

exercise as it involves the combination of cost effectiveness and efficiency along with

producing world-class technology at the cutting edge. For about five decades we have

been doing it with utmost sincerity and commitment at NIT Raipur.

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ABOUT THE DEPARTMENT Established in the year 1958, today the department offers undergraduate program

(B. Tech.) in Mechanical Engineering and Postgraduate program (M. Tech.) in

Thermal Engineering. It is one of the largest departments of the institute with intake of

100 students for undergraduate course and 19 students for post graduate course.

Department also offers Ph.D. program in all relevant discipline of Mechanical

Engineering including Design, Production, Thermal and Industrial Management.

Vision: -

To produce innovative, entrepreneurial and successful engineers and

technologists of high caliber for the nation, to serve as a valuable resource for

industry and society.

Mission: -

To provide the students and the faculty with opportunities to create, interpret,

and apply the knowledge in the field of Mechanical Engineering.

Provide technological service to local, national, and international

communities.

Programme Educational Objectives (PEOs):-

Under the undergraduate Mechanical Engineering programme the objectives

and aims to produce qualified Mechanical Engineers who will:

Apply technical knowledge and skills as Mechanical Engineers to provide the

solutions for the industries and government organizations.

Utilize effective communication, team, and project management skills to work

productively within their professions and communities.

Conduct themselves in a responsible, professional and ethical manner.

Inculcate an attitude for lifelong learning process.

Programme Outcomes (POs):-

Program Outcomes are the expected qualities of a graduating engineer. They

represent the views of industry and institute, and the needs of jobs performed by

graduates and are listed below for the graduates to:

Acquire knowledge of basic sciences and Mechanical Engineering.

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Acquire an ability to identify, formulate and solve Mechanical engineering

problems.

Acquire an ability to design and conduct experiments and analyze and interpret

data related to mechanical engineering.

Acquire skills to use modern mechanical engineering tools, software and

equipment to analyze problems.

Acquire knowledge of professional and ethical responsibilities and develop an

understanding of impact of mechanical engineering solutions on the society.

Communicate effectively both verbal and written, as an individual or as a leader.

Acquire awareness of contemporary issues.

Participate and succeed in competitive examinations.

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M.TECH. IN THERMAL ENGINEERING

About The Programme:

PROGRAMME COORDINATOR: Dr. Vivek Kumar Gaba

(SCAN THE QR FOR MORE INFORMATION)

PROGRAMME EDUCATIONAL OBJECTIVES (PEOs):

Under the Post-Graduate Mechanical Engineering programme in Thermal Engineering

the objectives aim to produce qualified Mechanical Engineering Post- Graduates who

will:

Possess advanced knowledge and understanding of the specialization thus

enabling them to tackle on-field problems as well as pursue further academic

achievements through research.

Possess communication, analytical and problem solving skills.

Conduct themselves in a responsible, professional and ethical manner.

Inculcate an attitude for life-long learning process.

PROGRAMME OUTCOMES (Pos):

Possess knowledge of modern technological concepts, conduct in-depth studiesand experiments and apply specialized expertise practically.

Work on multi-disciplinary projects to enhance skills, make effective oralpresentations and prepare technical documents effectively.

Develop professional and ethical attitude and become socially responsiblecitizens.

Ability to understand global issues and conduct independent research in theemerging areas.

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FACULITY OF THERMAL ENGINEERING:-

NAME DESIGNATION EDUCATION AREA OF INTEREST

Dr. R. Salhotra Professor & HOD B. E., M .Tech, Ph.D. Heat Transfer,Thermodynamics,Thermal Engineering

Dr. S.

Sanyal

Professor & TEQIP

Coordinator

B. E., M. E., Ph. D., PG

Diploma (English)

Machine Design,Mechanism Synthesis,Stress Analysis.

Dr. S L Sinha Professor B. E.,

M .Tech, Ph.D.

Computational Fluid

Dynamics in Thermal

Engg.Dr. S.D. Patle Professor B. E., M .Tech, Ph.D. Thermal Energy &

EnvironmentalEngineering.

Dr. Anil Kr

Tiwari

Professor B. E., M .Tech, Ph.D. Thermal Engineering,Solar ThermalApplication, Passiveheating & cooling,Refrigeration and AirConditioning, AlternateFuel of IC engine.

Prof. G. K. Sahu Associate Professor B. E., M .Tech Fluid Mechanics

Dr. S Bhowmick Associate Professor B. E., M.E. Ph..D. Structural Mechanics,Fluid StructureInteraction, MachineDesign, Spectral andFinite Element Methods

Dr. S. K. Dewangan Assistant Professor B.Tech, M.Tech, Ph.D. Multiphase flow,Experimentalcomputational FluidDynamics, Rheology,Combustion Modelling

Dr. V. K. Gaba Assistant Professor B. E., M. E. Ph.D. Heat Transfer,Refrigeration & AirConditioning andAlternative Sources ofEnergy

Dr. N. Netam Assistant Professor B. E., M.Tech. Ph.D. Thermal Engg, Heat &Mass Transfer, Two PhaseMaterials.

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COURSE STRUCTURE/ SYLLABUS

SEMESTER- I

Elective -I Advanced Finite Element Method/ Compressible Fluid Flow

SEMESTER -II

Elective 2- Design of Thermal Systems

Elective -3 Air Conditioning System Design

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Elective -II Design of Thermal System Elective -III Air Conditioning System Design

SEMESTER-III

SEMESTER-IV

FOR SYLLABUS PLEASE SCAN THE QR CODE PROVIDEDBELOW OR VISIT THE WEBSITE.

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http://www.nitrr.ac.in/aboutmechanical1.php

SEMESTER - I

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Advanced Thermodynamics (Core)

COURSE OUTCOMES:

After studying this subject, Student will be able:

1. Understand the basic concept of thermodynamics.

2. Apply the basic understanding for getting the basic concepts of irreversible thermodynamics.

3. Study of properties of pure substances.

4. Understand the equation of state for real gases and appreciate its application in real situation.

5. Understand the thermodynamics behind chemical reactions

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Advanced Numerical Techniques (Core)

COURSE OUTCOMES:

After studying this subject, Student will be able to:

1. Formulate different type of errors and solve transcendental & algebraic equation by bracketing and open methods.

2. Develop curve fitting by least square and other methods and solve the problem through interpolation using Newton’s forward ,backward & divide difference and by Lagrange’s & gauss’s method, which can be used for various real life numerical problem.

3. Solution of Numerical Differentiation & integration by Trapezoidal, Simpson and Newton cotes formula.

4. Numerical solution of ordinary differential equation by Euler’s, modified Euler’s, RungeKutta methods and application to initial and boundary value problem.

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5. Numerical solution of parabolic, elliptical an hyperbolic partial differential equation applied in various approximate solution.

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Heat Transfer – 1(Conductive & Radiative) (Core)

COURSE OUTCOMES:After studying this subject, Student will be able to:

1. Understand the basic modes of heat transfer

2. Analysis of steady state situation in conduction for plane wall, cylinder and sphere.

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3. Study the transient (time dependent) conduction and solving problems of 1-d with explicitand implicit scheme.

4. Understand the basic of radiation.

5. Calculation of radiation exchange between black and grey body and concept of gas radiation.

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Refrigeration System Components Design (Core)

COURSE OUTCOMES:At the end of this course the students will be able to:

1. Evaluate volumetric efficiency and power input of reciprocating compressors and alsodifferentiate qualitatively the effects of evaporator and condenser temperatures, withunderstanding various methods of regulating its, their classification and lubrication.

2. Analyze the performance of a centrifugal compressor and evaluate required impellerdiameter, speed and minimum refrigeration capacity with the understanding of surging.

3. Estimate condenser design parameters, optimum condenser pressure and effect ofpresence of non-condensable gases on its performance with understanding thecomparison of air-cooled with water cooled condensers.

4. Estimate thermal design parameters of evaporators, and classify them with analyzing itssalient features of different types of evaporators.

5. Estimate the required length of capillary tubes, analyse the practical problemsencountered in the operation of various types of expansion devices.

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title:- Advanced Finite Element Method (Elective)

COURSE OUTCOMES:

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At the end of this course the students will be able to :

1. Synthesise information and ideas for use in the evaluation process. 2. Develop governing equations of mechanical systems using domain knowledge and mathematical principles and apply principles of variation and integral forms of solution to formulate finite element problem. 3. Analyze and build FEA model for complex engineering problems. 4. Perceive the fundamental theory of the finite elements. 5. Develop skills to model the behaviour of structures under mechanical and thermo-mechanical loads.

LAB: EXPERIMENT ON HEAT TRANSFER

To determine temperature distribution of a chimney using Agross 2-D software . To determine temperature distribution of a solid slab using Agross 2-D software . Analysis of fin by BVP4C using Matlab To determine the thermal conductivity of a poor material say asbestos sheet by hot

guarded plates To determine the emissivity of grey surface. To study and analysis regenerative heat exchanger . To study of heat pipe . To find thermal conductivity of liquids.

LAB: EXPERIMENT IN AIR CONDITIONING SYSTEMS

Study of Domestic Refrigeration Test rig Study of cold storage unit Study of multi expansion device & evaporator Automobile Air Conditioning Study of Ice plant tutor

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SEMESTER-II

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Heat Transfer- II (Core)COURSE OUTCOMES:

1. To understand the basic principle of convection and types of boundary layers.

2. To study the external forced convection over flat plate, cylinder and tubes and find correlations

3. To understand the phenomena of internal flow as in tubes and annular.

4. To understand the science behind natural convection and combined free and forced convection.

5. To design and analysis of different types of heat exchanger.

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal EngineeringCourse Title: Advance Fluid Mechanics (Core)

COURSE OUTCOMES:After studying this subject, Student will be able to:

1. Understand the basics of Fluid kinematics and motion of fluid element.

2. Understand the integral relation for a control volume by applying conservation in mass, energy and momentum.

3. To understand the differential analysis of fluid flow and deals with Navier Stokes equation for various cases.

4. To find approximate solutions of Navier-Strokes equation.

5. To understand the concept of potential flow and its practical example

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Computational Fluid dynamics (Core)

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COURSE OUTCOMES: After studying this subject, Student will be able to:

1. Understand the basics of transport phenomenon and methods of discretization. 2. To solve general transport equation and study of steady diffusion and convection-diffusion problems. 3. To understand the Methods of flow field calculation by using different algorithms. 4. To know how to generate the numerical grids pertaining to various conditions. 5. To study the different types of methods to solve algebraic systems of equations

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Air Conditioning System Design (Elective)

COURSE OUTCOMES: After studying this subject, Student will be able to:

1. Understand how to calculate solar radiation for horizontal, vertical and tilted surface. 2. Calculate solar radiation through fenestration, ventilation and infiltration and use it for

design of solar appliances for buildings. 3. Calculate heating and cooling calculation, heat transfer through building. 4. Understand the different types of air conditioning system and its selection. 5. Understand the basics of transmission of air in air conditioning ducts.

Department of Mechanical EngineeringProgramme: M. Tech. in Thermal Engineering

Course Title: Design of Thermal Systems (Elective)

COURSE OUTCOMES: After studying this subject, Student will be able to:

1. Understand the basics steps in designing for thermal systems

2. To make model of thermal systems and study various types of model and interaction between them.

3. To generate numerical modelling for thermal systems and methods of simulation.

4. Economic analysis in the context of thermal system design.

5. Optimization techniques used in design.

LAB: CFD LAB Analysis of Flow in a Lid-Driven Cavity using FLUENT . CFD Analysis of Flow in an Intake Manifold . Analysis of Flow and Heat Transfer Over a Flat Plate . Simulation of Flow Development in a Pipe . Analysis of Flow Past a Circular Cylinder . In viscid & Compressible Flow through a Converging-Diverging Nozzle . Non-Newtonian Transition Flow in an Eccentric Annulus .

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